To determine diagnostic variables such as sensitivity and specificity of the major dermoscopic patterns observed in melanocytic lesions on acral volar skin, with particular attention to the significance of the parallel ridge pattern and irregular diffuse pigmentation in detecting acral melanoma.
S U M M A R YApoptosis-associated speck-like protein containing a caspase recruitment domain (ASC) is a pyrin N-terminal homology domain (PYD)-and caspase recruitment domain (CARD)-containing a proapoptotic molecule. This molecule has also been identified as a target of methylation-induced silencing (TMS)-1. We cloned the ASC cDNA by immunoscreening using an anti-ASC monoclonal antibody. In this study, we determined the binding site of the anti-ASC monoclonal antibody on ASC and analyzed the expression of ASC in normal human tissues. ASC expression was observed in anterior horn cells of the spinal cord, trophoblasts of the placental villi, tubule epithelium of the kidney, seminiferous tubules and Leydig cells of the testis, hepatocytes and interlobular bile ducts of the liver, squamous epithelial cells of the tonsil and skin, hair follicle, sebaceous and eccrine glands of the skin, and peripheral blood leukocytes. In the colon, ASC was detected in mature epithelial cells facing the luminal side rather than immature cells located deeper in the crypts. These observations indicate that high levels of ASC are abundantly expressed in epithelial cells and leukocytes, which are involved in host defense against external pathogens and in well-differentiated cells, the proliferation of which is regulated.
Midbrain periaqueductal grey (PAG) provokes the defense reaction when stimulated. The present study was conducted to determine whether, and how, the PAG produces baroreflex inhibition, a feature characterizing the hypothalamic defense reaction. In chloralose-urethane anaesthetized rats, baroreflex vagal bradycardia and baroreflex hypotension were provoked by aortic depressor nerve stimulation. When the PAG was electrically stimulated baroreflex vagal bradycardia was remarkably suppressed; suppression of baroreflex hypotension was observed following bilateral vagotomy. In contrast, chemical stimulation of the PAG by D,L-homocysteic acid microinjection markedly suppressed baroreflex vagal bradycardia but only minimally suppressed baroreflex hypotension. These findings suggest that whereas overall PAG stimulation inhibits not only cardiac but also vascular components of baroreflexes, inhibition of the latter component either depends largely on activation of passing fibers or requires recruitment of a larger number of PAG cell bodies. PAG inhibition of baroreflex vagal bradycardia was not affected following spinal cord transection at C1, indicating that the inhibition was exclusively central in origin and not due to peripheral, prejunctional inhibition of vagal acetylcholine release by increased cardiac sympathetic nerve activities. The PAG inhibition of baroreflexes was greatly attenuated following electrolytic as well as chemical destruction of the parabrachial region. On the other hand, when the PAG was extensively lesioned, baroreflex inhibition produced by hypothalamic defense area stimulation was markedly diminished. PAG excitation thus causes powerful inhibition of arterial baroreflexes which is mediated by the parabrachial region; the PAG also mediates a major fraction of hypothalamic inhibition of the baroreflexes.
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